c. The output voltage is measured between points 2 (+) and 0 (-). Find the ratio of the input to the output in the Laplace Domain (note that this is often referred to as the “Transfer Function"): d. If the input voltage is sinusoidal: T(s) = Vout (S) Vin (s) Vin (t) = Vin cos t and, as such, the output voltage will be sinusoidal: Vout (t) = Vout Cos(Nt - ) Determine the gain of this system (i.e., the ratio of the output amplitude to the input amplitude) as a function of the driving frequency. Hint: don't forget what you did on part c.

c. The output voltage is measured between points 2 (+) and 0 (-). Find the ratio of the input to the output in the Laplace Domain (note that this is often referred to as the “Transfer Function"): d. If the input voltage is sinusoidal: T(s) = Vout (S) Vin (s) Vin (t) = Vin cos t and, as such, the output voltage will be sinusoidal: Vout (t) = Vout Cos(Nt - ) Determine the gain of this system (i.e., the ratio of the output amplitude to the input amplitude) as a function of the driving frequency. Hint: don't forget what you did on part c.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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